steering resistance

简明释义

偏航阻力

英英释义

例句

1.To improve fuel efficiency, it's essential to minimize steering resistance in electric vehicles.

为了提高燃油效率，减少电动车的转向阻力是至关重要的。

2.The mechanic explained that old components could increase steering resistance and affect performance.

机械师解释说，旧部件可能会增加转向阻力并影响性能。

3.During the test drive, I noticed that the steering resistance was too high, which made driving uncomfortable.

在试驾过程中，我注意到转向阻力过高，这使得驾驶不舒适。

4.Adjusting the tire pressure can help lower the steering resistance in your vehicle.

调整轮胎压力可以帮助降低您车辆的转向阻力。

5.The new car model has significantly reduced steering resistance, making it easier to handle on sharp turns.

新款汽车模型显著减少了转向阻力，使其在急转弯时更易操控。

作文

In the world of engineering and automotive design, the term steering resistance refers to the force that opposes the movement of the steering mechanism in a vehicle. This concept is crucial for understanding how vehicles handle and respond to driver input. When a driver turns the steering wheel, they expect the vehicle to respond promptly and accurately. However, excessive steering resistance can hinder this responsiveness, making it difficult for the driver to maneuver the vehicle effectively.To elaborate, steering resistance can be influenced by various factors, including the design of the steering system, the type of power steering used, and even the condition of the tires. For instance, older vehicles often feature a mechanical steering system that may have higher steering resistance compared to modern cars equipped with power steering. Power steering systems use hydraulic or electric assistance to reduce the effort needed to turn the wheel, thereby minimizing steering resistance and enhancing overall driving comfort.Moreover, the level of steering resistance can also vary based on driving conditions. For example, when driving on a smooth highway, the steering resistance might feel lighter, allowing for easy maneuvering. Conversely, on rough or uneven terrain, the steering resistance can increase, requiring more effort from the driver to maintain control. This variability emphasizes the importance of proper vehicle maintenance and the need for drivers to be aware of their vehicle's handling characteristics.In terms of performance, a vehicle with optimal steering resistance provides a better driving experience. It allows for precise control, making it easier for drivers to navigate through tight corners or make quick lane changes. On the other hand, if the steering resistance is too high, it can lead to fatigue, especially on long drives, as drivers must exert more effort to steer the vehicle.Automakers continuously strive to improve the steering resistance in their vehicles to enhance safety and comfort. Innovations in technology, such as adaptive steering systems, have emerged to address this issue. These systems can adjust the level of steering resistance based on the speed of the vehicle and the driving conditions, providing a tailored driving experience for the user.In conclusion, understanding steering resistance is essential for both drivers and engineers alike. It plays a significant role in vehicle dynamics and affects how a vehicle feels on the road. By recognizing the factors that contribute to steering resistance, we can appreciate the advancements in automotive technology that aim to provide a smoother and more responsive driving experience. As we move forward, the focus on optimizing steering resistance will continue to be a key area of development in the automotive industry, ensuring that drivers enjoy safer and more enjoyable rides.

在工程和汽车设计的世界中，术语steering resistance指的是在车辆的转向机制中反对运动的力量。这个概念对于理解车辆如何处理和响应驾驶员输入至关重要。当驾驶员转动方向盘时，他们期望车辆能够迅速而准确地做出反应。然而，过高的steering resistance可能会妨碍这种响应，使驾驶员难以有效操控车辆。进一步说，steering resistance可以受到多种因素的影响，包括转向系统的设计、使用的动力转向类型，甚至轮胎的状况。例如，较旧的车辆通常采用机械转向系统，与配备动力转向的现代汽车相比，可能具有更高的steering resistance。动力转向系统利用液压或电动辅助来减少转动方向盘所需的努力，从而最小化steering resistance并增强整体驾驶舒适性。此外，steering resistance的水平也可能根据驾驶条件而变化。例如，在平坦的高速公路上驾驶时，steering resistance可能感觉较轻，便于操控。相反，在粗糙或不平坦的地形上，steering resistance可能会增加，要求驾驶员付出更多的努力来保持控制。这种可变性强调了适当的车辆维护的重要性，以及驾驶员需要了解自己车辆的操控特性。在性能方面，具有最佳steering resistance的车辆提供更好的驾驶体验。它允许精确控制，使驾驶员更容易在紧急转弯或快速变道时操控车辆。另一方面，如果steering resistance过高，可能会导致疲劳，尤其是在长途驾驶时，因为驾驶员必须付出更多的努力来转动车辆。汽车制造商不断努力改善其车辆的steering resistance以提高安全性和舒适性。技术上的创新，例如自适应转向系统，已出现以解决这个问题。这些系统可以根据车辆的速度和驾驶条件调整steering resistance的水平，为用户提供量身定制的驾驶体验。总之，理解steering resistance对驾驶员和工程师来说都是至关重要的。它在车辆动态中扮演着重要角色，并影响车辆在道路上的感觉。通过认识到影响steering resistance的因素，我们可以欣赏汽车技术的进步，这些技术旨在提供更平稳、更灵敏的驾驶体验。随着我们向前发展，优化steering resistance将继续成为汽车工业发展的关键领域，确保驾驶员享受更安全、更愉快的驾驶体验。